A microplate screen to estimate metal-binding affinities of metalloproteins

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DOI

Solute-binding proteins (SBPs) from ATP-binding cassette (ABC) transporters play crucial roles across all forms of life in transporting compounds against chemical gradients. Some SBPs have evolved to scavenge metal substrates from the environment with nanomolar and micromolar affinities (KD). There exist well established techniques like isothermal titration calorimetry for thoroughly studying these metalloprotein interactions with metal ions, but they are low-throughput. For protein libraries comprised of many metalloprotein homologues and mutants, and for collections of buffer conditions and potential ligands, the throughput of these techniques is paramount. In this study, we describe an improved method termed the microITFQ-LTA and validated it using CjNikZ, a well-characterized nickel-specific SBP (Ni-BP) from Campylobacter jejuni. We then demonstrated how the microITFQ-LTA can be designed to screen through a small collection of buffers and ligands to elucidate the binding profile of a putative Ni-BP from Clostridium carboxidivorans that we call CcSBPII. Through this study, we showed CcSBPII can bind to various metal ions with KD ranged over 3 orders of magnitude. In the presence of l-histidine, CcSBPII could bind to Ni2+ over 2000-fold more tightly, which was 11.6-fold tighter than CjNikZ given the same ligand.

Keywords

  • Bacterial Proteins/chemistry, Clostridium/metabolism, Hydrogen-Ion Concentration, Kinetics, Ligands, Metalloproteins/chemistry, Microarray Analysis/methods, Nickel/chemistry, Protein Binding, Recombinant Proteins/biosynthesis, Spectrometry, Fluorescence
Original languageEnglish
Pages (from-to)113836
JournalAnalytical biochemistry
Volume609
Early online date1 Aug 2020
DOIs
Publication statusPublished - 15 Nov 2020
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